摘要
通过研究不同干燥条件下制得的二氧化锆的织构和结构,发现在超临界干燥过程中附加一定的惰性气体压力能够防止或大大减小凝胶在干燥过程中的收缩,从而可提高BET表面积,和普通空气中干燥得到的二氧化锆相比,超临界干燥得到的二氧化锆的孔结构大为改善,同时BET表面积也增大.
Ultrafine ZrO2 with high BET surface area and large pore size, as compared with that dried in air, was prepared by Super Critical Drying. In Super Critical Drying process, application of inert gas pressure could eliminate or reduce the gel shrinkage, so that the surface area and pore volume of ZrO2 could be increased and its particle size and pore size could be decreased.
出处
《物理化学学报》
SCIE
CAS
CSCD
北大核心
1995年第9期781-784,共4页
Acta Physico-Chimica Sinica
基金
国家重大基金
关键词
超临界干燥
超细粒子
二氧化锆
Super critical drying, Ultrafine particle,Zirconia